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Mastercard Reorg Shows Urgent Industry Focus on AI – PYMNTS.com

The jury is still out as to how artificial intelligence (AI) will affect jobs in the financial services industry. But if the past six weeks have shown anything, it is this: AI is definitely coming for the org chart.

The technologys impact has been felt at major and minor levels for almost every company in the payments industry.

AtVisa, it sparked what was arguably one of the companys most high-profile new product launches withVisa Protect, which uses AI to reduce fraud across account-to-account and card-not-present payments, as well as transactions both on and off Visas network.

AtAmex, CEOStephen Squeriused his March 15shareholder letterto introduce a new Generative AI Council that includes technology, data science, risk management, legal and strategy teams to assess and approve the deployment of generative AI (GenAI) use cases across the company.

And atJPMorgan Chase, most news outlets missed CEOJamie Dimons announcement of anew chief data and analytics officer, still to be filled.

Elevating this new role to the Operating Committee level reporting directly to Daniel Pinto and me reflects how critical this function will be going forward and how seriously we expect AI to influence our business, Dimon said in a letter to shareholders.

This will embed data and analytics into our decision making at every level of the company. The primary focus is not just on the technical aspects of AI but also on how all management can and should use it, he added. Each of our lines of business has corresponding data and analytics roles so we can share best practices, develop reusable solutions that solve multiple business problems, and continuously learn and improve as the future of AI unfolds.

AtMastercardthe importance of data which these days is synonymous with AI played a big role in anexecutive reshufflingannounced April 9.

In addition to the appointment ofJorn Lambertto chief product officer and the elevation ofRaj Seshadri to chief commercial payments officer, CEOMichael Miebachtagged company veteranCraig Vosburgto the new post of chief services officer.

Vosburg will have a wide data remit. His team will integrate offerings from the companys current Cyber & Intelligence, Data & Services and Open Banking departments. It will include managing fraud, risk and cybersecurity, analytics and loyalty programs. Vosburg will also oversee a newly formed Data and AI organization that will include commercialization for both internal and external applications, and the governance of these functions across the entire enterprise.

All these moves reflect the dramatic impact AI has had on the payments industry. Couple AIs emergence with recent interchange reductions, and you have a pressing need to move data monetization to near the top of the agenda. And given the state of executive decisioning around AI as measured late last year, its happening right on time.

A December survey from EYshowed nearly all (99%) of the financial services leaders surveyed reported that their organizations were deploying AI in some manner, and all respondents said they are either already using, or planning to use, GenAI specifically within their organization.

But 20% of the respondents said they were skeptical about the potential impact of GenAI on their organization. That same percentage also lacked confidence that their organizations were well-positioned to take advantage of the potential benefits AI might bring.

Many management experts had been calling for a restructured place for AI and data to sit within an enterprise. For example, anMIT Management School articlepublished last week cautioned executives that AI use isnt about staying ahead of the curve or being part of a trend. It encouraged organizations to clearly define the breadth of available AI technologies and techniques available to them so they can match a business solution to a business problem.

Culture is a big part of the equation, according to the MIT article. Organizations will need to create silo-busting cross-functional teams, make failure permissible to encourage creativity, and encourage innovative ways to combine human and machine capabilities in complementary systems.

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Information program at Logan View High School to focus on artificial intelligence – Fremont Tribune

An informational and timely program, How to Make Artificial Intelligence a Force for Good, will be held at 1 p.m. Wednesday, April 17, at Logan View Junior-Senior High School. It is free and open to the public.

Nick Schreck, interim dean of the Dunklau School of Business at Midland University in Fremont, will be the featured speaker for this program that is sponsored by the area Men in Mission organization of Hooper, Scribner and Uehling.

Schreck will discuss these areas: 1. What is A.I.? 2. Some A.I. applications (ChatGPT, Canva, etc.); 3. Benefits and drawbacks of A.I.; and 4. What the future looks like.

"The technology we use has been in constant change as our needs as a society shift, Schreck said in a news release. One constant need throughout is the desire to have more time doing the things we love. With generative artificial intelligence, people are finding ways to get back valuable time. However, like many inventions, there are good ways to use this and malicious ways to use it. We want to be a force for good and so we'll explore how these tools can be used to benefit our communities."

In addition to being the interim dean of the Dunklau School of Business, Schreck is associate professor of digital marketing at Midland University. He and his wife Katie live in Arlington and have two children, ages 4 and 1. He enjoys traveling, performing arts events, and serving as the public address announcer for various athletic events.

This is the ninth year that Men in Mission has presented an assembly program at either Logan View or Scribner-Snyder schools.

We are grateful to the administration and staff of the schools to make these programs successful, said Men in Mission member, David Hingst. We encourage the public to attend this program. All are welcome.

For more information about the program, contact Hingst at 402-720-0079 or Jim Ebel at 402-664-2459.

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Information program at Logan View High School to focus on artificial intelligence - Fremont Tribune

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Blendification Announces Exclusive Consultant Equity Program: Equity Participation in Cutting-Edge Artificial … – PR Newswire

BOULDER, Colo., April 10, 2024 /PRNewswire/ --Blendification, a leading innovator in integrating strategic planning and personal development through artificial intelligence, is unveiling its Consultant Equity Program. This program offers select consultants, business coaches, and consulting firms an opportunity to enhance their consulting practices with AI technology while gaining equity in a pioneering software platform.

The Blendification Consultant Equity Program aims to forge a symbiotic partnership with forward-thinking consultants. By incorporating the Blendification software suite into their consulting services, participants will advance their approach to strategic planning and personal development and participate in the early commercialization phase of this technology.

A New Era of Strategic Planning and Personal Development (AI)The Blendification Platform offers two main tracks:

Who is this for?This program is designed for two consultant categories:

By participating in the Consultant Equity Program, consultants can:

Program Details and IncentivesThe Consultant Equity Program provides initial consulting partners with a chance to shape the future of strategic planning and personal development integration. With limited slots available, participants will receive an equity stake in Blendification, acknowledging their critical role and contribution to the platform's success. Program benefits include early access to the technology, the potential to enhance revenue streams, equity participation, and the opportunity to influence the platform's development.

Equity, Investment, and VestingParticipation details are as follows:

Limited to 30 slots, with specific allocations for independent consultants/coaches and consulting firms. Subscription fees are structured to accommodate different levels of engagement, with equity stakes offered up to 0.2% for independent consultants and up to 0.5% for consulting firms, vested over three years.

A Vision for the FutureDan Bruder, CEO and Co-Founder of Blendification, stated, "Our mission is to bridge the gap between company strategy and employee development. The Consultant Equity Program embodies this mission by empowering consultants with a tool that leverages AI for the betterment of organizations and their employees."

Shawn DeVerse, Chief Product Officer and Co-Founder, added, "We're inviting consultants not just to witness but actively participate in the evolution of the consulting industry. Through this program, we recognize their invaluable input, marking our mutual commitment to growth and innovation."

Join the Blendification Consultant Equity ProgramConsultants and firms interested in pioneering the future of consulting are invited to apply for the Consultant Equity Program. For more information and to submit your application, please visit Blendification's Consultant Page or contact us directly at [emailprotected].

About BlendificationBlendification is dedicated to enabling people to embrace the workplace as an opportunity to activate and pursue potential. Blendification provides AI-powered software for strategic planning and implementation (Company Focus Track) and has an application for employee growth (Employee Focus Track). Each application is a digital framework with a step-by-step workflow, integrated guidance, and a structure for developing the connection between the company and employees.

Visit Blendification on social media: LinkedIn YouTube Twitter Facebook

SOURCE Blendification

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Biomimetic Olfactory Chips: Are Artificial Intelligence and E-Noses the Next Canary in a Coal Mine? – Securities.io

The Difficulties Of Artificial Olfaction

While machine vision has made tremendous progress in the last few years, other artificial senses have lagged behind. One of them is the sense of olfaction or smell'.

This is because we have long known how to get a precise electric signal in response to light, something that has been used on a massive scale since the first digital cameras. In contrast, smell is essentially the detection of volatile chemical substances.

This is a lot more difficult for a few reasons:

For all these reasons, most chemical / olfactory digital detection is currently limited to a few chemical compounds. And generally only used in an industrial setting where the dangerous chemicals to be detected are expected to come from accidents or leaks, for example, carbon monoxide, ozone, chlorine, etc.

This could change thanks to the development of biomimetic olfactory chips by researchers on the team of Prof. Fan Zhiyong, Chair Professor at the Hong Kong University of Science and Technology (HKUST).

The way the sense of smell works in animals & humans is through an array of chemical detectors called olfactory receptors, able to detect with high sensitivity a wide range of volatile chemicals.

The number of genes coding for such olfactory receptors can vary from 300 to 1,200 depending on the species and how important the sense of smell is for it.

So, instead of having one receptor for every possible chemical molecule, every compound will have a unique footprint produced when activating each of these receptors slightly differently. The olfactory bulbs then assemble this complex signal into a nerve signal and interpret it by a part of the brain called the olfactory complex.

HKUST researchers have created a way to replicate this system, bypassing the constraints of building a miniaturized receptor for each possible chemical compound.

They assembled nanotube sensor arrays on a nanoporous substrate, reaching up to 10,000 individually addressable gas sensors per chip.

This data is then processed by a neural network algorithm to be translated into a perception of a specific chemical digital smell.

This design gives the olfactory chips the potential to simultaneously detect both the presence and concentration of a dozen or more chemicals at once.

As a demonstration, the team created a biomimetic olfactory chip that demonstrated exceptional sensitivity to various gases, and with excellent distinguishability for mixed gases and 24 distinct odors.

They then integrated both the olfactory chip and vision sensors on a robot dog, creating a combined olfactory and visual system that can accurately identify objects in blind boxes, pretty much like a real dog.

The most immediate application of olfactory chips is where most chemical detectors are currently used: safety applications. This includes factories, water treatment stations, petrochemical industries, pipe leak detection, and environmental monitoring (air pollution, etc.).

These new types of detectors could detect more chemicals at once than previous technologies, allowing for a larger data stream and better assessment of safety.

As demonstrated by the robodog prototype, such a detection system could be used to detect otherwise invisible threats. From drug smuggling to detection of explosives, every activity where sniffer dogs are used could be systematized, thanks to the merger of AI, autonomous robotics, and olfactory chips.

Search and rescue could also benefit from olfactory chips to find survivors under destroyed buildings after a natural catastrophe.

One reason why most animals have a developed sense of smell is to detect if a food is edible or spoiled. We can imagine that very sensitive olfactory chips specialized in food products could be very useful for the food industry.

Similarly, farming drones could also be used to smell the ripening of fruit, the presence of fungal crop diseases, insect pheromones, etc.

It has been known for a while now that some diseases are associated with the emission of specific smells. Anecdotal data of cats or dogs able to detect cancer have now been proven more than just urban myths through the use of artificial sensors.

Most notably, several cancers have started to be detected through these methods, with the electronic nose able to do so with a 95% accuracy.

The findings suggest that the Penn-developed tool which uses artificial intelligence and machine learning to decipher the mixture of volatile organic compounds (VOCs) emitting off cells in blood plasma samples could serve as a non-invasive approach to screen for harder-to-detect cancers, such as pancreatic and ovarian.

Penn Medicine News

We also see companies like BrainChip using digital olfactory detection to detect bacteria in blood samples.

It is likely that the more olfactory chips become sensitive and able to detect dozens or hundreds of compounds at once, the more such discoveries could be used for diagnosis, not just of cancer but of many other diseases, especially metabolic diseases.

Contrary to the current version, it could maybe achieve this only from the smell of our skin or breath, not even needing a blood sample.

As a purely silicon-based system, olfactory chips could be integrated into our omnipresent small electronic tools like the smartphone.

It could be useful to constantly monitor and automatically detect threats like carbon monoxide, smoke, or gas leaks or judge the safety of food.

We could also imagine more trivial but nevertheless potentially useful and popular applications, like helping while cooking, recognizing spices, etc.

In the longer run, if coupled with a smell generator, it could even enable the digital transfer of (preferably good) smells between phones.

Another more distant in the future, but not impossible application would be to integrate such olfactory chips capability into the human body.

Especially considering the quick progress of human-machine interfaces, like, for example, Elon Musk's Neuralink.

We could easily imagine such a sensor being integrated into our bodies and giving us warnings about harmful chemicals at levels below what is biologically possible. Or for chemicals we are completely unable to detect naturally.

In the future, with the development of suitable bio-compatible materials, we hope that the biomimetic olfactory chip can also be placed on human body to allow us to smell odor that normally cannot be smelled.

It can also monitor the abnormalities in volatile organic molecules in our breath and emitted by our skin, to warn us on potential diseases, reaching further potential of biomimetic engineering,

Prof. Fan Zhiyong

The potential of olfactory chips is likely to be confined in the first years to serious applications with clear use cases, from disease diagnostics to threat detection. So these applications are most likely where we can find companies that could benefit from this innovation.

(this list did not include chip companies with strong potential in olfactory chips and sensors, but whose largest part of their revenues will most likely stay driven by classical computing chips, like for example Intel's neuromorphic chipor IBMs SyNAPSE Scalable energy-efficient neuro synaptic computing chip).

This artificial intelligence company specializes in creating chips that mimic the human brain through Neural Network Layer Engines (NPEs).

It claims to be the first to commercialize neuromorphic technology. It also sees itself as ahead of serious competitors like IBM and Intel chips, thanks to on-chip learning, standard ML workflow & on-chip convolution.

It is focused on vision, audio, olfactory, and smart transducer applications.

This makes the company a very good candidate to benefit from progress in olfactory chips. It could directly license the HKUSTs discovery, try to replicate it, or see its own chips become a key part of the hardware required for interpreting the nanotube sensor array data.

The company sees a massive potential market for its products, including machine vision and olfactory capacities.

BrainChip has a high-margin IP business model, where it licenses its technology for an upfront fee and royaltiesstreams, and then partnering with system integrators to create the final product.

Honeywell is a leader in detection & sensors, with a strong or dominant presence in industries like building automation, aerospace, and safety (many of its aerospace and building activities are linked to sensor technologies).

As a recognized leader in sensors & monitoring, it could be in a prime position to commercialize and expand the scope of gas detectors from its current limited (but already lucrative) state to an omnipresent tool.

Honeywell is also at the forefront of other technological innovations, notably quantum computing through its ownership of 54% of Quantunuumand a business sector we discussed in our article The Current State of Quantum Computing.

It is also active in Liquid Metal Printing, something we discussed in Liquid Metal Printing May Become a Productive Force in the Landscape of Manufacturing and Design.

Honeywell is already a massive company in the sensor and automation sector, with ambitious goals in a large array of innovative technologies.

So even if biomimetic olfactory chips could be a competitor in the short term, it is likely that it will be able to adapt and benefit from the growth of the olfactory sensors market, either through its own R&D or through acquisitions of smaller companies.

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Biomimetic Olfactory Chips: Are Artificial Intelligence and E-Noses the Next Canary in a Coal Mine? - Securities.io

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The Future of Technology: Advancements in Artificial Intelligence at the University of Maryland – elblog.pl

The University of Maryland is taking bold steps towards shaping the future of technology with the creation of its Artificial Intelligence Interdisciplinary Institute at Maryland (AIM). With the rapid advancements in artificial intelligence (AI) and concerns surrounding big tech companies, the university aims to establish trust and ensure that AI is developed for the betterment of society.

AIM, housed within the Department of Computer Science, provides a wide range of courses open to students from all academic disciplines. In addition, the university has introduced a new major in artificial intelligence with two tracks: Bachelor of Science (B.S.) and Bachelor of Arts (B.A.). This program provides students, regardless of their major, a path to AI within the first year or two of study, equipping them for various career opportunities.

The B.A. track of the AI major delves deeper into the humanistic and social science aspects of AI, while the B.S. track focuses on the mathematical and algorithmic aspects. By incorporating perspectives from the arts, humanities, and social sciences, the university ensures a multidisciplinary approach to AI development that considers societal needs and values.

To address concerns about the impact and trustworthiness of AI technology, the AIM program emphasizes showcasing positive outcomes and a realistic understanding of potential risks. The program recognizes that universities, with their diverse range of faculties including humanists and social scientists, are uniquely positioned to lead this work. By bringing experts from various fields together, the university aims to develop AI that is beneficial for all.

Recognizing the widespread impact of AI on various professions, the University of Maryland also offers a minor in artificial intelligence for students majoring in non-STEM fields. This affirms the importance of having a solid understanding of AI across all fields, as technology continues to evolve.

The Marylands Artificial Intelligence Interdisciplinary Institute signifies the increasing significance of AI in different industries. AI technology has the potential to revolutionize sectors such as healthcare, finance, manufacturing, and transportation.

According to a report, the global AI market is projected to reach a value of $190.61 billion by 2025, with a compound annual growth rate (CAGR) of 36.62%. Organizations across industries are recognizing AIs potential to streamline processes, improve efficiency, and make data-driven decisions.

However, the development and implementation of AI also come with unique challenges and concerns. Ethical considerations, bias, and privacy need to be addressed. Transparency, fairness, and accountability are vital when AI-powered systems make decisions that impact individuals and society at large.

Source: Market Research Future

The University of Marylands AI Interdisciplinary Institute takes a proactive approach to address these challenges. By incorporating perspectives from disciplines beyond technology, the program aims to foster trust in AI technology. This multidisciplinary approach considers not only the technical aspects of AI but also the ethical and societal implications.

The integration of AI into non-STEM fields is another crucial aspect of the universitys efforts. The minor in artificial intelligence acknowledges that AI will impact various professions, regardless of their traditional STEM focus. Professionals in fields such as law, journalism, and marketing can benefit from understanding the applications and implications of AI.

The Artificial Intelligence Interdisciplinary Institute at Maryland (AIM) is a program established by the University of Maryland to advance the development of artificial intelligence (AI) and foster trust in its applications. AIM offers courses and majors in AI, open to students from all academic disciplines.

The University of Maryland offers two tracks in their artificial intelligence major: Bachelor of Science (B.S.) and Bachelor of Arts (B.A.). The B.S. track focuses on the mathematical and algorithmic aspects of AI, while the B.A. track delves deeper into the humanistic and social science aspects.

Incorporating perspectives from non-STEM fields, such as the arts, humanities, and social sciences, is crucial in AI development. It ensures a multidisciplinary approach that considers societal needs, values, and ethical implications.

Yes, the University of Maryland recognizes the widespread impact of AI on various professions. They offer a minor in artificial intelligence, allowing students majoring in non-STEM fields to gain a solid understanding of AI and its applications and implications in their respective fields.

For further information on AI and its impact in different industries, it is recommended to visit reputable sources such as the World Bank or PwC. These organizations provide valuable insights into the current state and future trends of the AI market, as well as its potential benefits and challenges.

The University of Marylands Artificial Intelligence Interdisciplinary Institute at Maryland (AIM) is not only shaping the future of technology but also reflecting the increasing significance of AI in different industries. AI technology has the potential to revolutionize sectors such as healthcare, finance, manufacturing, and transportation. According to a report, the global AI market is projected to reach a value of $190.61 billion by 2025, with a compound annual growth rate (CAGR) of 36.62%. Organizations across industries are recognizing AIs potential to streamline processes, improve efficiency, and make data-driven decisions.

However, the development and implementation of AI also come with unique challenges and concerns. Ethical considerations, bias, and privacy need to be addressed. Transparency, fairness, and accountability are vital when AI-powered systems make decisions that impact individuals and society at large. These challenges highlight the importance of programs like AIM that take a multidisciplinary approach to AI development.

Incorporating perspectives from disciplines beyond technology, the AIM program aims to foster trust in AI technology. This multidisciplinary approach considers not only the technical aspects of AI but also the ethical and societal implications. By bringing experts from various fields together, the university aims to develop AI that is beneficial for all.

Additionally, the integration of AI into non-STEM fields is another crucial aspect of the universitys efforts. The minor in artificial intelligence acknowledges that AI will impact various professions, regardless of their traditional STEM focus. Professionals in fields such as law, journalism, and marketing can benefit from understanding the applications and implications of AI.

For further information on AI and its impact in different industries, it is recommended to visit reputable sources such as the World Bank or PwC. These organizations provide valuable insights into the current state and future trends of the AI market, as well as its potential benefits and challenges.

Source: Market Research Future

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Faculty Alliance ‘Thought Leaders Forum’ focuses on artificial intelligence – UAA Northern Light

UAF assistant professor Victoria McDermott, PhD. Photo courtesy of UAF Department of Communication.

The University of Alaska Faculty Alliance held a forum on March 28 and 29 to discuss the ways in which artificial intelligence is changing the educational landscape. A series of educators and administrators from across the UA system spoke about AI during several Zoom sessions, and recordings can be found at alaska.edu/governance/faculty-alliance/.

The March 29 Track B panel covered multiple topics, but this article focuses on the portion about the impact of AI on academic performance presented by UAF Department of Communication Assistant Professor Victoria McDermott.

McDermott began by explaining that the department has adopted an official AI policy. The policy allows for AI to be used strategically by students to help them brainstorm and create frameworks or foundations for their work.

The policy prohibits the use of AI for generating writing that will be turned in, such as a speech outline, discussion board posts or reflection papers. The policy also bans the use of AI for assignments that require peer feedback or personal reflection.

McDermott said that she recognizes that AI is super dynamic and ever changing. The departments main priority with AI, she said, is student success.

Thats the kind of space that were coming to this conversation from, and we take the stance that AI is not going anywhere.

McDermott said that the policy is in regards to the ways that we expect students or allow students to use AI. She said that the policy makes clear to students how and when to use AI, so as to better facilitate their learning.

But whether or not the policy is working is not straightforward.

McDermott estimated that there have been roughly two cases of inappropriate AI use per class. She said that instructors have noticed students become combative when accused of using AI.

Determining actual use of AI is not a simple task especially as programs such as ChatGPT become more intuitive.

AI is not easy to verify. There are a lot of different systems that maybe don't chat with each other, said McDermott.

Complicating the matter is the fact that programs like Grammarly a generally accepted grammar corrector are picked up in some AI-verification programs to the detriment of students who might have turned in AI-free work.

McDermott then explained that her department is trying its best to navigate the tricky ethics regarding AI. She brought up issues pertaining to discrimination, fake citations and intellectual property.

We have a limited understanding of how the algorithms that run AI work. And then sometimes AI makes some [unjustified] actions related to the conclusions that are made. There are privacy concerns. If you put content into AI, then whose content does it become? McDermott said.

Regardless of these concerns, AI use is rising in the workplace, so the UAF Communication Department would like to help prepare students for this new reality.

Over half of the 600 businesses surveyed [in a Forbes study] already use artificial intelligence or hope to use it in the future, said McDermott.

We can see that there are a lot of different ways that businesses are integrating AI.

McDermott explained that training, such as AI literacy workshops, can be a way to introduce students to AI tools and how to translate them ethically to their education and the workplace.

You can actually have students kind of work through an evaluation guideline of ethics related to AI Who owns the content, the bias, the misinformation. You can have students work through those through thinking critically [about] what AI puts out and what does that mean.

McDermott concluded by explaining that concerns surrounding AI can be approached using ethical reasoning and addressing problematic areas to find ways to fit AI into the classroom.

Students who are interested in learning more about AI from a variety of educators are welcome to watch the Zoom recordings on the UA Faculty Alliance website. The recordings encompass a wide range of AI-related talks including Using AI Voiceovers to Augment Instructor Presence, Using AI As A Partner in the Research Process and Utilizing AI Tools in the Classroom to Deepen Student Learning.

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Buying Artificial Intelligence (AI) Stocks Can Be Risky. Avoid Losing Your Shirt With This Simple Strategy – sharewise

Bringing new technologies to market is never a smooth process. There was an entire stock market collapse in the early 2000s when the internet bubble burst, which proved that even the most revolutionary technologies must be supported by a viable business model in the long run.

Artificial intelligence (AI) is the new craze among stock market investors at the moment. This frenzy isn't quite as irrational as the dot-com period two decades ago, because companies like Nvidia (NASDAQ: NVDA) genuinely have billions of dollars in sales and profit from AI. In other words, AI is already big business.

However, while Nvidia shares have surged 215% in the past year alone, AI stocks like C3.ai, Lemonade, and Upstart are each down more than 80% from their all-time highs.

Continue reading

Source Fool.com

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Google Meet will have several artificial intelligence-based features, and you will have to pay for them – Softonic EN

As is the case in most of the tech industry, the giants of the sector have artificial intelligence as their major bet for the present and the future, so Google was not going to be an exception, of course. A clear example of this is Gemini, the multimodal artificial intelligence of the American firm, whose technology is gradually reaching existing services of those in Mountain View, as you already know. Now, the company has announced several new artificial intelligence features that are preparing to arrive at Workspace and more specifically to Meet, and these will not be free.

In relation to this, Google announced in a recent post on its Workspace blog that all AI innovations they are developing for their different services will be paid. Specifically, the monthly subscription will be $10 per user, which is a standard fee for each of these features. In fact, Google Meet already has some of these innovations, which aim to streamline the work of employees in companies that use these services.

If you want to enjoy the new features of Gemini in Google Meet, you should know that these new functions, and all the ones announced by the company for all Workspace services, can be added as an add-on to any of the following plans: Business, Enterprise, Frontline, and Nonprofit. Obviously, not all of these functions are available yet. In any case, Google has added the new AI tool Take notes for me in Meet, which will take notes during meetings so that users can focus on the conversation itself.

AI will be responsible for summarizing and creating a list of notes about everything that happened in the meeting, regardless of the number of participants. This tool can provide the entire conversation in context and transfer all the important details into a document that can be used as a summary. This feature is already available in Meet, but the service is preparing to receive another exciting update, although it will have to wait a little longer for it.

Google has also announced that, starting in June, its mentioned service will feature Translate for me, a function dedicated to automatic and instant translation of subtitles. In fact, this important addition to Meet will be able to translate and transcribe the entire conversation in real time on both screens where the meeting is taking place. It is worth mentioning, in addition, that this artificial intelligence function will be compatible with up to 69 languages, resulting in 4,600 language combinations available. As for the translated transcription of the entire conversation, it can be summarized and downloaded later in a text document.

In addition to all this, Google Meet will also allow the use of generative backgrounds as part of these new artificial intelligence features, as well as the ability to take advantage of adaptive audio benefits. In addition, Google Chat will also have the option to add a watermark when sharing screens and conversation summaries. These additional innovations do not yet have a specific arrival date to these Mountain View programs.

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University of Maryland Launches Artificial Intelligence Interdisciplinary Institute to Foster Trust and Benefit Society – elblog.pl

The University of Maryland is making significant strides in shaping the future of technology with the creation of its Artificial Intelligence Interdisciplinary Institute at Maryland (AIM). By recognizing the rapid advancements in artificial intelligence (AI) and the concerns surrounding the intentions of big tech companies, the university aims to establish trust and ensure that AI is developed for the betterment of society.

AIM, housed within the Department of Computer Science, offers a wide range of courses that are open to students from all academic disciplines. In addition, the university has introduced a new major in artificial intelligence with two tracks: Bachelor of Science (B.S.) and Bachelor of Arts (B.A.).

With the AIM program, the university intends to provide a path to AI for all students, regardless of their major. Within the first year or two of study, students gain a strong understanding of modern AI technology, equipping them for various career and educational paths.

While both tracks share a common base of knowledge, the B.A. track delves deeper into the humanistic and social science aspects, while the B.S. track focuses on the mathematical and algorithmic aspects of AI.

Addressing concerns about the impact and trustworthiness of AI technology, the inaugural director of the AIM program, Hal Daum, emphasizes the importance of showcasing the positive outcomes that can arise from AI while providing a realistic understanding of potential risks. The AIM program incorporates perspectives from the arts, humanities, and social sciences to ensure a multidisciplinary approach to AI development that considers societal needs and values.

According to Daum, universities are uniquely positioned to lead this kind of work due to their diverse range of faculties, including humanists and social scientists. By bringing experts from various fields together, the university aims to develop AI that is beneficial for all.

Even students majoring in non-STEM fields will have the opportunity to minor in artificial intelligence, recognizing the widespread impact of AI on various professions. With technology continuously evolving, it is crucial for individuals in all fields to have a solid understanding of AI.

The University of Maryland expects to soon offer the artificial intelligence major, with over 100 dedicated faculty members for the AIM program. The goal is to ensure that AI is developed responsibly and ethically, with a clear comprehension of its implications.

This establishment of the Artificial Intelligence Interdisciplinary Institute at the University of Maryland signifies the increasing significance of AI in different industries. AI technology has the potential to revolutionize sectors such as healthcare, finance, manufacturing, and transportation.

Market forecasts suggest that the global AI market will continue to expand significantly. According to a report by Market Research Future, the AI market is projected to reach a value of $190.61 billion by 2025, growing at a compound annual growth rate (CAGR) of 36.62%. It is no surprise given the increasing adoption of AI in various industries, as organizations recognize its potential to streamline processes, improve efficiency, and make data-driven decisions.

However, the development and implementation of AI also come with unique challenges and concerns. Ethics, bias, and privacy are key issues that need to be addressed. With AI-powered systems making decisions that impact individuals and society at large, transparency, fairness, and accountability are vital.

To overcome these challenges, universities like the University of Maryland are proactively taking action. The AI Interdisciplinary Institute seeks to foster trust in AI technology by incorporating perspectives from disciplines beyond technology. This multidisciplinary approach considers not only the technical aspects of AI but also the ethical and societal implications.

The integration of AI into non-STEM fields is another crucial aspect of the University of Marylands efforts. By offering a minor in artificial intelligence, the university recognizes that AI will have an impact on various professions, regardless of their traditional focus on STEM. Professionals in fields such as law, journalism, and marketing can benefit from understanding the applications and implications of AI.

For further information on AI and its impact in different industries, it is recommended to visit reputable sources such as the World Bank or PwC. These organizations provide valuable insights into the current state and future trends of the AI market, along with its potential benefits and challenges.

The Artificial Intelligence Interdisciplinary Institute at Maryland (AIM) is a program established by the University of Maryland to advance the development of artificial intelligence (AI) and foster trust in its applications. AIM offers courses and majors in AI, open to students from all academic disciplines.

The University of Maryland offers two tracks in their artificial intelligence major: Bachelor of Science (B.S.) and Bachelor of Arts (B.A.). The B.S. track focuses on the mathematical and algorithmic aspects of AI, while the B.A. track delves deeper into the humanistic and social science aspects.

Incorporating perspectives from non-STEM fields, such as the arts, humanities, and social sciences, is crucial in AI development. It ensures a multidisciplinary approach that considers societal needs, values, and ethical implications. By bringing experts from various fields together, the University of Maryland aims to develop AI that benefits all.

Yes, the University of Maryland recognizes the widespread impact of AI on various professions. They offer a minor in artificial intelligence, allowing students majoring in non-STEM fields to gain a solid understanding of AI and its applications and implications in their respective fields.

For further information on AI and its impact in different industries, it is recommended to visit reputable sources such as the World Bank or PwC. These organizations provide valuable insights into the current state and future trends of the AI market, as well as its potential benefits and challenges.

The establishment of the Artificial Intelligence Interdisciplinary Institute at the University of Maryland highlights the growing importance of AI in various industries. AI has the potential to revolutionize sectors such as healthcare, finance, manufacturing, and transportation. To support this, market forecasts predict that the global AI market will continue to expand significantly. According to a report by Market Research Future, the AI market is projected to reach a value of $190.61 billion by 2025, with a compound annual growth rate (CAGR) of 36.62%.

However, the development and implementation of AI also come with unique challenges and concerns. Ethical considerations, bias, and privacy are key issues that need to be addressed. With AI-powered systems making decisions that impact individuals and society at large, transparency, fairness, and accountability are vital.

To address these challenges, universities like the University of Maryland are taking proactive measures. The AI Interdisciplinary Institute incorporates perspectives from disciplines beyond technology, fostering trust in AI technology. This multidisciplinary approach considers not only the technical aspects of AI but also the ethical and societal implications.

The integration of AI into non-STEM fields is another significant aspect of the University of Marylands efforts. Recognizing that AI will impact various professions, regardless of their traditional focus on STEM, the university offers a minor in artificial intelligence. Professionals in fields such as law, journalism, and marketing can benefit from understanding the applications and implications of AI in their respective fields.

For further information on AI and its impact in different industries, reputable sources such as the World Bank or PwC provide valuable insights into the current state and future trends of the AI market, along with its potential benefits and challenges.

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University of Maryland Launches Artificial Intelligence Interdisciplinary Institute – elblog.pl

The University of Maryland is spearheading the future of technology with the establishment of its Artificial Intelligence Interdisciplinary Institute at Maryland (AIM). Recognizing the rapid advancements in artificial intelligence (AI) and the skepticism surrounding the intentions of big tech companies, the university aims to foster trust and ensure that AI is developed to benefit society.

The newly established program, housed in the Department of Computer Science, will offer a range of courses open to students from all academic disciplines. In addition, the university will introduce a new major in artificial intelligence, available in two tracks Bachelor of Science (B.S.) and Bachelor of Arts (B.A.).

According to Hal Daum, the inaugural director of the AIM program, the institute intends to provide a path to AI for all students, regardless of their major. Within their first year or two of study, students will gain a strong understanding of modern AI technology, equipping them for various career and educational paths.

While the B.S. and B.A. tracks will share a common base of knowledge, the B.A. track will delve deeper into the humanistic and social science aspects, while the B.S. track will focus on the mathematical and algorithmic aspects of AI.

Addressing concerns about the impact and trustworthiness of AI technology, Daum emphasized the importance of showcasing the positive outcomes that can arise from AI while also providing a realistic understanding of potential risks. The AIM program aims to incorporate perspectives from the arts, humanities, and social sciences to ensure a multidisciplinary approach to AI development that considers societal needs and values.

Daum believes that universities are well-positioned to lead this kind of work due to their diverse range of faculties, including humanists and social scientists. By bringing experts from various fields together, the university aims to develop AI that is beneficial for all.

Even students majoring in non-STEM fields will have the opportunity to minor in artificial intelligence, recognizing the widespread impact of AI on various professions. As technology continues to evolve, career trajectories may change, making it essential for individuals in all fields to have a solid understanding of AI.

The university expects that students will be able to enroll in the artificial intelligence major soon, with over 100 faculty members dedicated to the AIM program. The goal is to ensure that AI is developed responsibly and ethically, with a clear understanding of its implications.

The establishment of the Artificial Intelligence Interdisciplinary Institute at the University of Maryland reflects the growing importance of AI in various industries. AI technology has the potential to revolutionize sectors such as healthcare, finance, manufacturing, and transportation. With the rapid advancements in AI, it has become crucial to educate students from diverse academic backgrounds on how this technology works and its implications for society.

Market forecasts suggest that the global AI market will continue to expand in the coming years. According to a report by Market Research Future, the AI market is projected to reach a value of $190.61 billion by 2025, growing at a compound annual growth rate (CAGR) of 36.62%. This growth can be attributed to the increasing adoption of AI in various industries, as organizations recognize its potential to streamline processes, improve efficiency, and make data-driven decisions.

However, the development and implementation of AI also come with unique challenges and concerns. Ethics, bias, and privacy are key issues that need to be addressed. With AI-powered systems making decisions that impact individuals and society as a whole, it is vital to ensure that these systems are transparent, fair, and accountable.

To mitigate these challenges, universities like the University of Maryland are taking proactive steps. The AI Interdisciplinary Institute aims to foster trust in AI technology by incorporating perspectives from disciplines such as the arts, humanities, and social sciences. This multidisciplinary approach considers not only the technical aspects of AI but also the ethical and societal implications.

The integration of AI in non-STEM fields is another significant aspect of the University of Marylands efforts. By offering a minor in artificial intelligence, the university recognizes that AI will have an impact on various professions, regardless of the traditional STEM focus. Professionals in fields such as law, journalism, and marketing can benefit from understanding the applications and implications of AI.

For further information on AI and its impact in different industries, visit reputable sources like World Bank or PwC. These organizations provide valuable insights into the current state and future trends of the AI market, along with its potential benefits and challenges.

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